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| United States Patent |
5,768,746
|
|
Kamatani
, et al.
|
June 23, 1998
|
Electric vacuum cleaner
Abstract
An electric vacuum cleaner comprising a floor nozzle connected to a lower
part of a main body of the electric vacuum cleaner and having a suction
opening opened on a lower surface of the floor nozzle, a rotary brush
disposed in the suction opening, a driving source, a power transmission
system which transmits power from the driving source to the rotary brush,
and a changeover unit which connects or disconnects power transmission of
the power transmission system, wherein the changeover unit is provided
with an operation pedal, which is manipulated to connect or disconnect the
power, on a rear portion of the floor nozzle. It is possible for an
operator to instantaneously turn on and off the driving of the rotary
brush only by stepping down or lifting up the pedal while gripping the
handle at rear side of the main body of the cleaner without stopping the
movement of the cleaner.
| Inventors:
|
Kamatani; Kazumasa (Hyogo-ken, JP);
Fukushima; Sadao (Hyogo-ken, JP);
Yoshimi; Kazuyoshi (Hyogo-ken, JP);
Ueyama; Shuzo (Kasai, JP);
Kawaguchi; Tomonari (Ohtsu, JP);
Yoneda; Isao (Himeji, JP);
Fujii; Kazuhiro (Hyogo-ken, JP)
|
| Assignee:
|
Sanyo Electric Co., Ltd. (Moriguchi, JP)
|
| Appl. No.:
|
878549 |
| Filed:
|
June 19, 1997 |
Foreign Application Priority Data
| Current U.S. Class: |
15/390; 15/391 |
| Intern'l Class: |
A47L 009/00 |
| Field of Search: |
15/389,390,391
|
References Cited
U.S. Patent Documents
| 4446594 | May., 1984 | Watanabe et al.
| |
| 4446595 | May., 1984 | Nakada et al.
| |
| 4637092 | Jan., 1987 | Hayashi et al.
| |
| 4686736 | Aug., 1987 | Petralia | 15/390.
|
| 4748714 | Jun., 1988 | Tschudy.
| |
| 5331716 | Jul., 1994 | Hemmann et al. | 15/390.
|
Primary Examiner: Moore; Chris K.
Attorney, Agent or Firm: Armstrong, Westerman, Hattori, McLeland & Naughton
Parent Case Text
This application is a continuation of application Ser. No. 08/536,268 filed
Sep. 29, 1995 now abandoned.
Claims
What is claimed is:
1. An electric vacuum cleaner comprising a floor nozzle connected to a
lower part of a main body of the vacuum cleaner and having a suction
opening on a lower surface of a floor nozzle; a rotary brush disposed in
the suction opening; a drive source; a power transmission system including
a belt for transmitting power from the drive source to the rotary brush;
and a changeover unit which selectively connects and disconnects power
transmission of the power transmission system wherein the changeover unit
includes an operating pedal which is manipulated to selectively connect
and disconnect the transmitting belt and is provided on a rear portion of
the floor nozzle; a long slide lever manipulated by the operating pedal
and having a belt guide formed at a front end portion of the slide lever;
and means on said slide lever for guiding and restricting movement of the
slide lever.
2. An electric vacuum cleaner comprising a floor nozzle connected to a
lower part of a main body of the electric vacuum cleaner and having a
suction opening opened at a lower surface of the floor nozzle; a rotary
brush disposed in the suction opening; a driving source; a power
transmission system. including a belt for transmitting power from the
driving source to the rotary brush; and a changeover unit which
selectively connects and disconnects power transmission of the power
transmission system; wherein the change over unit includes an operating
pedal which is manipulated to selectively connect and disconnect the power
and is provided on a rear portion of the floor nozzle; a long slide lever
having a working pin engaging said operating pedal, said pin inserted into
a rear end portion of the slide lever and a U-shaped belt guide formed on
one side of a front end portion of the slide lever; and means on said
slide lever for guiding and restricting movement of the slide lever and
restricting movement of the slide lever.
3. The electric vacuum cleaner of any one of claim 1 or 2 wherein the guide
means comprises an L-shaped follower extending from the slide lever and a
guide groove formed on a fixed section of the main body for guiding ›to
guide! the follower.
4. The electric vacuum cleaner of any one of claim 1 or 2 wherein said
restricting means comprises a rectangular restricted member extending from
the slide lever and an engaging member formed on the fixed section of the
main body for engagement with the restricting member.
5. The electric vacuum cleaner of claim 2, wherein the restricting means
comprises a rectangular restricting member extending from the slide lever
and an engaging member formed on the fixed section of the main body to
engage with the restricting member.
Description
BACKGROUND OF THE INVENTION
The present invention relates to an electric vacuum cleaner and, more
particularly, to an electric vacuum cleaner capable of easily turning a
rotation brush on and off without interrupting the movement of the
electric vacuum cleaner.
In a so-called upright type electric vacuum cleaner, a floor nozzle, which
is moved along a floor surface, is rotatably connected, around a
horizontal axis, to the lower part of the main body of the electric vacuum
cleaner incorporating a blower and a dust collector therein. A suction
opening is provided on the lower surface of the floor nozzle.
A rod-shaped handle is inserted into the upper part of the main body of the
electric vacuum cleaner and is pushed and pulled to manually move the
cleaner manipulation of such handle is detected to control the traveling
unit, incorporated in the floor nozzle, for moving the cleaner.
A rotary brush is provided inside the suction opening. By rotating this
rotary brush with a driving source, such as a motor for suction, dusts
adhering on a carpet are adjustable for suction.
In such type of electric vacuum cleaner, though it is possible to
effectively clean the carpet by rotating the rotary brush when the floor
surface to be cleaned is covered with a carpet, the carpet can be damaged
when the rotary brush is rotated while the electric vacuum cleaner is
stopped and remains in the same place on carpet. Further, the floor
surface might be damaged when the rotary brush is rotated on a wooden
floor or "tatami" floor.
Therefore, in such type of electric vacuum cleaner, as shown in, for
example, Japanese Unexamined Patent Publications No. 13727/1981 and No.
32720/1983, there has been proposed an electric vacuum cleaner which
includes a power transmission system intermittently arbitrarily
transmitting power from a power source to the rotary brush and an
operation unit which operates the intermittent switching of power
transmission for the power transmission system, and is designed to turn
the driving of the rotary brush on and off by manually manipulating an
operation tool provided on the operation unit as required.
In terms of the difference of the disconnecting mechanism, which
intermittently transmits the power from the power source to the rotary
brush arbitrarily, the power transmission system is roughly classified
into a type in which it is possible to freely engage a transmission belt
on a driven pulley, fixed to the rotary brush, and on a free pulley
coaxially arranged with the driven pulley and freely rotatable against the
rotary brush (hereinafter called as belt changeover type); and a type in
which two wheels are arranged in a straight line, facing each other, and
are contacted and separated (hereinafter called as clutch type).
Although the configuration of the operation unit that operates such
disconnection mechanisms varies in accordance with the configuration of
the disconnection mechanism, an operation tool to manually perform the
changeover action is provided to the disconnection mechanism.
Conventionally, the operation tool is exposed on the front upper surface of
the floor nozzle, as shown in, for example, Japanese Unexamined Patent
Publication No. 13727/1981, to change over the disconnection mechanism by
rotating or sliding the operation tool right and left.
When, for example, in a room where a part of a wooden floor is covered with
a carpet, it is necessary to turn the driving of the rotary brush on and
off by manipulating the operation tool at a border between a part where
wooden board is exposed and a part where the carpet is placed, so as to
stop the driving of the rotary brush where the board is exposed while
driving the rotary brush where the carpet is placed.
However, in the conventional electric vacuum cleaner, a user, who is
grasping the handle, has to bend down so that the user's one hand reaches
the position near the floor in front of the main body of the electric
vacuum cleaner because, as described above the operation tool is exposed
on the front upper part of the floor nozzle.
Therefore, it is difficult to manipulate the operation tool, while moving
the electric vacuum cleaner, and it is necessary to stop the moving of the
cleaner to turn on and off the driving of the rotary brush each time when
the cleaner approaches the border between the carpet and the wooden floor.
Such operation is troublesome and it is impossible to easily turn on and
off the driving of the rotary brush easily.
The present invention is made in view of the above circumstances, and
therefore it is an object of the present invention to provide an electric
vacuum cleaner capable of easily turning on and off the driving of the
rotary brush without interrupting the movement of the cleaner.
SUMMARY OF THE INVENTION
In accordance with the present invention, there is provided an electric
vacuum cleaner comprising a floor nozzle connected to a lower part of a
main body of the electric vacuum cleaner and having a suction opening
opened on a lower surface of the floor nozzle; a rotary brush disposed in
the suction opening; a driving source; a power transmission system which
transmits power from the driving source to the rotary brush; and a
changeover unit which connects and disconnects power transmission of the
power transmission system, wherein the changeover unit is provided with an
operation pedal, which is manipulated to connect or disconnect the power,
on a rear portion of the floor nozzle.
It is desirable that the changeover unit comprises a long slide lever
having a working pin inserted into a rear end portion of the slide lever
and a U-shaped belt guide formed on one side of a front end portion of the
slide lever; and a guide means for guiding movement of the slide lever and
a restricting means for restricting movement of the slide lever, both
means being provided on the other side of the front end portion of the
slide lever.
Moreover, it is desirable that the guide means comprises an L-shaped
follower extending from the slide lever, and a guide groove formed on a
fixed section of the main body to guide the follower.
Furthermore, it is desirable that the restricting means comprises a
rectangular restricting member extending from the slide lever and an
engaging member formed on the fixed section of the main body to engage
with the restricting member.
It is possible for an operator, who is on the rear side of the main body of
the cleaner with gripping a handle, to easily changeover the power
transmission system by stepping down or kicking up the operation pedal
while moving the electric vacuum cleaner.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a side view of an embodiment of the present invention;
FIG. 2 is a bottom view of an embodiment of the present invention;
FIG. 3 is a side view of a power transmission system in an embodiment of
the present invention when the rotary brush is being driven;
FIG. 4 is a bottom view of the power transmission system in an embodiment
of the present invention when the rotary brush is being driven;
FIG. 5 is a side view of the power transmission 35 system in an embodiment
of the present invention when the rotary brush is stopped;
FIG. 6 is a bottom view of the power transmission system in an embodiment
of the present invention when the rotary brush is stopped;
FIG. 7 is a perspective view showing frontward movement of a slide lever in
a changeover unit of an embodiment of the present invention;
FIG. 8 is a perspective view showing rearward movement of a slide lever in
a changeover unit of an embodiment of the present invention;
FIG. 9 is an explanatory sectional view of the floor nozzle in an
embodiment of the present invention;
FIG. 10 is an explanatory sectional view of a disassembled floor nozzle in
an embodiment of the present invention;
FIG. 11 is a bottom view of the floor nozzle without the bottom plate in an
embodiment of the present invention;
FIG. 12 is a bottom view of the disassembled floor nozzle in an embodiment
of the present invention;
FIG. 13 is an explanatory sectional view of a floor nozzle in another
embodiment of the present invention;
FIG. 14 is an explanatory sectional view of the disassembled floor nozzle
in another embodiment of the present invention;
FIG. 15 is a bottom view of the disassembled floor nozzle in another
embodiment of the present invention;
FIG. 16 is an explanatory sectional view of a main portion of the floor
nozzle in an embodiment of the present invention; and
FIG. 17 is an explanatory sectional view of the main portion of the floor
nozzle in an embodiment of the resent invention.
DETAILED DESCRIPTION
The upright type electric vacuum cleaner according to an embodiment of the
present invention is described below with reference to the accompanying
drawings.
The upright type electric vacuum cleaner according to an embodiment of the
present invention is, as shown in FIG. 1, provided with a main body 1, a
floor nozzle 2 rotatably connected around the horizontal axis, vertical to
the page surface, to the lower part of the main body 1, and a handle 3
inserted into the upper part of the main body 1. A suction motor and
dust-collection bag are incorporated in the main body 1.
As shown in the bottom view in FIG. 2, the floor nozzle 2 is formed in a
shape of a groove surrounding the front and both sides of the main body 1,
and the inside of the front section is provided with a suction opening 4
opened on the lower surface and a rotary brush 5 that rotates within the
suction opening 4.
Furthermore, in FIG. 2, a duct 6, extending from the suction opening 4 to
the left rear upper surface of the floor nozzle 2, is arranged within the
left side section of the floor nozzle 2 shown on the right side of the
main body 1, an FIG. 2, and a power transmission system 8, FIGS. 3 and 4,
that arbitrarily and intermittently transmits the power from the rotation
shaft 7 of the suction motor to the rotary brush 5 arranged within the
right side section of the floor nozzle 2 as shown in FIGS. 3 to 6.
As shown in FIGS. 3 to 6, the power transmission system 8 is a belt
changeover type and comprises a driven pulley 9, arranged coaxial with and
fixed to the rotary brush 5, a free pulley 10, FIGS. 4, 5 and 6, arranged
coaxial with the rotary brush 5 on the right side of the driven pulley 9
and capable of freely rotating against the rotary brush 5, and a
transmission belt 11 which is wound around the rotation shaft 7 of the
suction motor on one side and which is interchangeably engaged on the
driven pulley 9 and the free pulley 10 on the other side.
A disconnection unit, FIGS. 4 and 6, is provided to allow the operator to
arbitrarily changeover the transmission belt 11 of the power transmission
system 8. The disconnection unit comprises a long slide lever 16, FIGS.
4-8 having a working pin 15 inserted into a rear end portion of the slide
lever 16 and a U-shaped belt guide 20 formed on one side of a front end
portion of the slide lever 16; and a guide means for guiding movement of
the slide lever 16 and a restricting means for restricting movement of the
slide lever 16, both means being provided on the other side of the front
end portion of the slide lever 16. The disconnection unit 12, FIG. 6 is
provided with a manipulation pedal 14 which is rotatably supported by a
support pin 13 on the right rear section of the floor nozzle 2 to rotate
around a right and left direction axis and extends rearward of the right
side section of the floor nozzle 2.
A rear end section of the slide lever 16, provided within the right side
section of the floor nozzle 2 to move in the front and rear directions, is
connected to the manipulation pedal 14 via a working pin 15, FIG. 6, so
that the slide lever 16 moves rearward with the pedal 14 stepped down and
moves frontward with the pedal 14 lifted.
The guide means comprises an L-shaped follower 19, FIGS. 6-8 extending from
the slide lever 16 and a guide groove 18 formed on the fixed section of
the main body 1 to guide the follower 19. Namely, the front section of the
slide lever 16 is provided with the follower 19 which slides within the
guide groove 18 formed on the guide plate 17 fixed within the right side
section of the floor nozzle 2. The guide groove 18 is slanted in the
diagonally opposite direction from the right side corner of the guide
plate 17. Therefore, the side lever 16 can smoothly and securely move by
means of the follower 19 and the guide groove 18 as a guide means.
Moreover, the restricting means comprises a rectangular restricting member
19a, FIGS. 7 and 8, extending from the side section of the slide lever 16
and an engaging member 17a formed on the fixing section of the main body 1
to engage with the restricting member 19a. The engaging member 17a has an
approximately U-shaped form, and a restricting member 19a is inserted into
an elongated hole 18a formed on the upper end of the engaging member 17a.
Moreover, the engaging member 19a is restricted in downward direction-
(direction towards the transmission belt 11) by means of the pressing
section 17b on the upper end of the engaging member 17a so that the slide
lever 16 is accurately positioned without dislocating at the time of
operation, thereby preventing the bottom section 20a of the guide 20 a as
described below, from contacting with the transmission belt 11. Moreover,
the slide lever 16 is made of plate material and has higher strength so
that the lever will not twist and be broken even if it is used for a long
period of time. When the slide lever 16 is moved frontward, the follower
19 deeply enters the guide groove 18, and the front section of the slide
lever 16 is deflected to left side direction until the restricting member
19a FIG. 7, is engaged with the front end section 17c of the engaging
member 17a as shown in FIG. 4 and FIG. 7. When the side lever 16 is moved
rearward, the follower 19 is pulled out near the entrance of the guide
groove 18, and the front section of the slide lever 16 is deflected in
right side direction until the restricting member 19a is engaged with the
rear end section 17d of the engaging member 17a as shown in FIG. 6 and
FIG. 8.
The front end section of the slide lever 16 is provided with a belt guide
20 to pinch the upper side rotation part of the transmission belt 11. When
the belt guide 20 is deflected to the right side, the transmission belt 11
is wound around the free pulley 10. When the belt guide 20 is moved from
the right side to the left side, the transmission belt 11 is accordingly
moved from right side to the left side by belt guide 20 and changed over
from the free pulley 10 to the driven pulley 9. Moreover, when the belt
guide 20 is deflected to the left side, the transmission belt 11 is wound
around the driven pulley 9. When the belt guide 20 is moved from the left
to the right side, the transmission belt 11 is moved from the left side to
the right side with being pushed by the belt guide 20 changed over from
the driven pulley 9 to the free pulley 10.
Moreover, the circumferential surface of the driven pulley 9 and free
pulley 10 is formed in a shape of a drum of the same size with its center
part crowned so as to allow smooth changeover of engagement of the
transmission belt 11 and prevent the disengagement of the engaged
transmission belt 11. Moreover, the support pin 13 is fixed on the floor
nozzle 2, via a pedal holder 21. Furthermore, as shown in FIG. 1, a rear
wheel 22 is rotatably supported on the main body 1, and a front wheel 23
for transfer is rotatably supported on the lower part of the floor nozzle
2.
The electric vacuum cleaner is moved along on a floor surface by pushing
and pulling, with the handle held by a hand and with the handle 3 and the
main body 1 inclined in the rear direction. The pedal 14 projects from the
rear right side section of the floor nozzle 2, so that it is possible for
an operator to step down or lift up the pedal 14 at an arbitrary time
while the operator moves the cleaner and grasping the handle 3.
As shown in FIGS. 5 and 6, when the pedal 14 is pushed down, the slide
lever 16 retracted to change the transmission belt 11 from the driven
pulley 9 to the free pulley 10, thereby turning off the driving of the
rotary brush 5. On the other hand, as shown in FIG. 3 and FIG. 4, when the
pedal 14 is lifted up, the slide lever 16 moves forward to change over the
transmission belt 1 from the free pulley 10 to the driven pulley 9,
thereby turning on the driving of rotary brush 5.
Thus, it is made possible to easily turn on and off the driving of the
rotary brush 5 without stopping the transfer of the electric vacuum
cleaner only by simple operation of stepping down and lifting up the pedal
14. For example, it is possible to continuously clean a floor by turning
on and off the driving of the rotary brush 5 without stopping the cleaner
when one moves from a floor covered with a carpet to a wooden floor or in
an opposite direction.
Moreover, in the above embodiment, as shown in FIGS. 9 to 11, a belt cover
24, covering the rear part of the transmission system 8 from lower side,
is rotatably supported on the lower right rear section of the floor nozzle
2 and a bottom plate 25 covering the floor nozzle 2 section positioned in
front of the belt cover 24, from the lower side is attached so as to
prevent a finger or hand from accessing to the power transmission system 8
or prevent dust from entering thereinto.
Moreover, in order to prevent the dust within the suction opening 4 from
being trapped in the power transmission system 8, as shown in FIG. 9 and
FIG. 12, the upper front right side within the floor nozzle 2 is provided
with a dust-isolation wall 26 isolating the upper half section of the
power transmission system 8 from the section opening 4. Further, as shown
in FIGS. 9 to 11, a dust-isolation cover 28, having a dust-isolation wall
27 contacting with the dust-isolation wall 26 in the same plane, is
detachably inserted into the lower right front section within the floor
nozzle 2 from below.
The reason why the belt cover 24 is openably and closably provided and the
dust-isolation cover 28 is detachably inserted is to make replacement of
the transmission belt 11 possible. Replacing the transmission belt 11 will
require three actions of detaching and attaching the bottom plate 25,
opening and closing the belt cover 24, and pulling out and inserting the
dust-isolation cover 28, which is troublesome. Furthermore, in order to
insert the dust-isolation cover 28, it is necessary to match the position
and direction of the dust-isolation cover 28 with the floor nozzle 2 so
that it seems to be more troublesome. Moreover, there is a danger that the
dust-isolation cover 28, hidden by the bottom plate 25, might be forgotten
to be attached, so that the dust within the suction opening 4 intrudes the
power transmission system 8 to abnormally promote the abrasion of the
driven pulley 9, free pulley 10 and transmission belt 11.
Therefore, in another embodiment of the present invention, as shown in FIG.
13 and FIG. 14, a one-body cover 29, covering the whole power transmission
system 8 from below, is rotatably supported on the lower right rear side
of the floor nozzle 2 and a dust-isolation wall 30, isolating the lower
half section of the power transmission system 8, is connected to the front
part of the one-body cover 29 to make it possible to replace the
transmission belt 11 with two actions of detaching and attaching the
bottom plate 25 and opening and closing the one-body cover 29.
Moreover, as shown in FIGS. 13 to 15, a dust-isolation wall 26, isolating
the upper half section of the power transmission system 8, is provided on
the upper right front section within the floor nozzle 2. In order to close
the dust-isolation wall 30 of the one-body cover 29 and the dust-isolation
wall 26 within the floor nozzle 2 on the same plane, positioning ribs 31,
32 are provided on the front section within the floor nozzle 2 as shown in
FIG. 15 and FIG. 17 so that the dust-isolation wall 30 for the one-body
cover 29 is inserted between those ribs 31, 32 when the one-body cover 29
is closed.
In order to make it easier to insert the one-body cover 29 between the ribs
31, 32, slopes 33, 34, opening downward, are provided on the lower part of
the ribs 31, 32 to prevent the dust-isolation wall 30 from being caught by
the lower end section of the ribs 31, 32. On the other hand, chamfers 37,
38, closing upward and viewed from front side, are formed on the parts 35,
36 of the one-body cover 29 projecting right and left directions from
between the ribs 31, 32 to prevent the one-body cover 29 from being caught
by the side wall 39 of the floor nozzle 2 and the inside enforcement rib
40.
Moreover, the above-mentioned each embodiment is described with referring
to a cleaner with a belt changeover type disconnection mechanism, however,
the present invention is applicable to an electric vacuum cleaner with
clutch type disconnection mechanism.
As described above, in the electric vacuum cleaner of the present
invention, an operation pedal of the disconnection unit that changes over
the power transmission of the power transmission system is provided on the
rear right section or rear left section of the floor nozzle so that it is
possible for an operator to easily turn on and off the driving of the
rotary brush only by stepping down and lifted up, the pedal while gripping
the handle at rear side of the main body of the cleaner without stopping
the movement of the cleaner.
Moreover, it is possible to smoothly and accurately change over the power
transmission by using a disconnection means comprising a long slide lever
having a working pin inserted into a rear end portion of the slide lever
and a U-shaped belt guide formed on one side of a front end portion of the
slide lever; and a guide means for guiding movement of the slide lever and
a restricting means for restricting movement of the slide lever, both
means being provided on the other side of the front end portion of the
slide lever.
Though several embodiments of the present invention are described above, it
is to be understood that the present invention is not limited only to the
abovementioned and various changes and modifications may be made in the
invention without departing from the spirit and scope thereof.
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